About How to deal with wind power generation failure
This article presents a standardized analysis of failures in wind turbines concerning the main technologies classified in the literature, as well as identifies critical components and trends for the most modern wind farm facilities, which seek greater efficiency, robustness and reliability to mitigate failures and reduce wind turbine downtime.
This article presents a standardized analysis of failures in wind turbines concerning the main technologies classified in the literature, as well as identifies critical components and trends for the most modern wind farm facilities, which seek greater efficiency, robustness and reliability to mitigate failures and reduce wind turbine downtime.
For example, it is now possible to roughly predict failure occurrence rates and total cost of repair for four common wind drivetrain failures, affecting main shaft spherical and tapered roller bearings and gearbox high-speed and planet bearings.
Given that gearbox bearing failures lead to costly unplanned maintenance and turbine downtime, there is an opportunity to reduce operation and maintenance costs at wind power plants by accurately predicting the probability of failure and implementing solutions to reduce the frequency of these failures.
Bearing failures in wind turbines are a major cause of downtime in energy production for unplanned maintenance, repairs and replacements. This failure type is a primary cost and results in higher operations and maintenance (O&M) costs for the energy operator and in higher utility bills for the customer.
Although there are many failure types and various causes, we can deduce four primary reasons for these failures: lack of core technologies; inferior quality due to price competition; design standards and wind farm climate differences; and no mandatory quality certification and exterior factors, such as wind farm construction, power grids and .
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